Keyhole Saw Blade or Sabre Saw Blade for a Power Tool

ABSTRACT

A keyhole saw blade or sabre saw blade for a power tool comprises a base blade having a cutting edge and a securing shank designed as one piece with the base blade. At least one impression is formed into the base blade or the securing shank.

The invention relates to a jigsaw blade or reciprocating saw blade for a power tool according to the preamble of claim 1.

PRIOR ART

U.S. Pat. No. 4,036,236 describes a jigsaw blade or reciprocating saw blade for a surgical saw, said saw blade having a rectilinear blade body at a fixing shank, wherein a longitudinal edge of the blade body forms the cutting edge having cutting teeth. A groove-like depression has been introduced into the saw blade along the entire axial length, said depression being produced by indentation on one of the lateral surfaces of the saw blade, such that, on the opposite lateral surface, a corresponding linear or strip-form protrusion is produced along the length of the saw blade. Bending vibrations of the saw blade, which is embodied in a thin manner, are intended to be reduced by way of the groove on one side and the protrusion on the opposite side.

GB 2 179 593 A describes a saw blade for a jigsaw or reciprocating saw, said saw blade having a plurality of grooves in the lateral surfaces, said grooves extending in the longitudinal direction, that is to say parallel to the cutting edge having the teeth. As a result of the introduction of the grooves, contact between the lateral surfaces of the saw blade and the workpiece to be machined is intended to be reduced and thus the friction minimized.

DISCLOSURE OF THE INVENTION

The invention is based on the object of using simple design measures to configure a saw blade for a jigsaw reciprocating saw, which executes an oscillating reciprocating movement during operation, such that precise workpiece machining is possible over a long operating period.

This object is achieved according to the invention by the features of claim 1. The dependent claims specify expedient developments.

The invention relates to a saw blade for a jigsaw or reciprocating saw, which executes an oscillating, reciprocating working movement in translation during operation. The saw blade has a blade body having a cutting edge on which cutting teeth are arranged, and also a fixing shank, formed in one piece with the blade body, for fixing in a receiving device of the power tool. At least one impression has been introduced into the blade body and/or into the fixing shank, said impression increasing the strength and changing the tension properties of the saw blade, with the result that both the natural frequency of the saw blade and the propagation of vibrations or transverse oscillations in the saw blade are positively influenced. As a result of the impression, the material in the saw blade is usually compressed. In the case of high point loads on the saw blade, too, for example in the event of the saw blade coming into contact with a hard article, or in the case of high bending load, the risk of breakage is reduced on account of the increased rigidity or strength which is achieved via the impression. Accordingly, there is increased operational reliability, and the quality of the work result is also improved and can be maintained over a longer operating period.

It is furthermore advantageous that the impression can be produced in a simple manner. The impression results in strain hardening in the blade body and thus in a changed tension property.

The impression can be produced by stamping; in this case, an impression in the form of a depression is present on one lateral surface of the blade body, while on the opposite lateral surface the stamping produces a corresponding ridge. The impressions produced by stamping have an impressed depth of preferably at least 0.1 mm. The impressions can all be introduced into the same lateral surface, such that only depressions are present on this lateral surface and only elevations are present on the opposite lateral surface. Alternatively, it is also possible to provide impressions on each lateral surface, such that each of the two lateral surfaces has depressions and ridges.

However, it is also possible to produce the impression by rolling, in particular by simultaneous rolling on both lateral surfaces of the blade body, in that the saw blade is moved through between two counterrotating rollers, such that impressions in the form of depressions are arranged on both lateral surfaces and the material in the blade body is compressed in the region of the impression. In the case of impressions produced by rolling, the impressed depth is preferably at most one third of the blade thickness, for example at most 0.2 mm or 0.1 mm, and may optionally be located in the region of hundredths of a millimeter, for example 0.01 mm. It is also advantageous in this case that the saw blade is indented from opposite sides, such that no elevations arise on a lateral surface of the saw blade. The rolled impressions are located on both lateral surfaces of the saw blade and are in particular arranged in a mirror-symmetrical manner with respect to one another. The rolled impression is not a groove but an indentation which is scarcely visible or noticeable from the outside and results in material compression in the blade body and thus in a changed tension property. Accordingly, the impression does not serve for improved chip removal, for dissipation of heat or for reducing the frictional contact with the workpiece to be machined, but for increasing the rigidity and a desired change in the tension property.

Optionally, chemical finishing treatments, for example by coating, can be carried out locally in the saw blade in addition to the impressions in order to influence the tension in the saw blade. Alternatively or in addition, local thermal finishing treatments, for example induction harden, are also possible.

Impressions embodied in different manners may be suitable. For example linear or strip-form impressions, which are either embodied in a rectilinear or curved manner or may have rectilinear and curved sections, are possible. In the case of a linear impression, the width is very small, and in the case of a strip-form impression, the width is preferably at most one third of the blade height, for example 3 mm, although greater widths are also possible, if appropriate. Planar impressions on the saw blade are also possible in principle.

It is furthermore possible, in particular in the case of a linear impression, to produce geometric patterns that are configured in a peripherally closed manner, for example approximately rectangular impressions, triangular impressions or the like. The impression per se is linear or strip-form and forms the peripheral contour of the geometric pattern.

It may be expedient for the impression, in the case of a linear or strip-form configuration, to extend at least sectionally in the longitudinal direction, that is to say parallel to the cutting edge. However, an angular orientation of the linear or strip-form impression with respect to the longitudinal axis, or an orthogonal course, that is to say in the transverse direction of the saw blade, are also possible in principle. Furthermore, different types of patterns of impressions which are representable as a combination of different impressions, for example a combination of rectilinear impressions which extend sectionally in the longitudinal and transverse directions and/or at an angle to the longitudinal axis, are possible.

Defined patterns of impressions which change depending on the axial position are also possible.

The linear or strip-form impressions can have been introduced into the blade body such that at least two corners of the blade body are connected by the impressions. Preferably, all four corners of the blade body are connected by linear or strip-form impressions, although different variant embodiments are suitable in principle. It is possible for example to introduce diagonally extending impressions which connect diagonally located corners of the blade body. In addition or alternatively, a connection via impressions extending in the longitudinal direction or in the transverse direction between the corners in the blade body is suitable. A frame structure with impressions is created both with diagonal impressions and with impressions that extend in the longitudinal direction or transversely to the longitudinal direction, said frame structure significantly improving the strength of the blade body. The diagonal impressions and/or impressions extending in the longitudinal direction or transverse direction can extend as far as the respective corners. However, according to a further embodiment, it is also possible for such an impression to be located at a distance from one or two corners, with in this case the longitudinal axis of the impression leading through the corners.

It may be expedient to provide one or more impressions next to the fixing shank or in the transition region between the blade body and the fixing shank, since the transition region is highly stressed in particular in the case of high bending loads, and the strength in the transition region can be increased by the introduction of the impressions, such that the risk of breakage is reduced. The impressions can be arranged on the fixing shank and/or immediately adjacent to the fixing shank on the blade body.

At least one cutout may have been introduced into the blade body, said cutout being delimited by at least one impression. The cutout, which may be produced for example by punching, reduces the mass moment of inertia of the blade body, this having a positive effect, in particular with regard to reduced transmission of vibrations, on the useful life and user-friendliness. Furthermore relatively small-size drive motors can be used. The impression in the blade body counteracts a reduction in stability brought about by the cutout. Thus, as a result of the combination of cutout and impression, various advantages can be combined, specifically a reduced mass or a mass moment of inertia and improved stability with reduced propagation of vibrations.

Advantageously, a plurality of cutouts have been introduced into the blade body, said cutouts each being delimited by at least one, preferably linear or strip-form impression. It may be expedient to provide impressions on at least two sides of a cutout, optionally on all sides of the cutout, in order to counteract the reduction in the stability that is brought about by the cutouts.

Various cross-sectional geometries of the cutouts are suitable, in particular polygonal, for example triangular or rectangular geometries.

The cutouts are preferably delimited by impressions which are produced by way of stamping. However, impressions which are produced by rolling and delimit cutouts in the blade body are also possible in principle.

Further advantages and expedient embodiments can be found in the further claims, the description of the figures and the drawings, in which:

FIG. 1 shows a side view of a saw blade for a jigsaw or reciprocating saw, consisting of a blade body having a cutting edge with cutting teeth and an integrally formed fixing shank, having an impression extending in the longitudinal direction of the saw blade, said impression extending parallel to and at a distance from the cutting edge,

FIGS. 2 to 9 show different variant embodiments of saw blades with different impressions,

FIG. 10 shows a saw blade with impressions and cutouts,

FIG. 11 shows the saw blade from FIG. 10 in section,

FIG. 12 shows the fixing shank of a saw blade and the transition region to the blade body into which impressions have been introduced,

FIG. 13 shows a similar illustration to FIG. 12, but with an impression that extends as far as the upper edge of the saw blade,

FIG. 14 shows the fixing shank of a saw blade and the transition region to the blade body in a further variant embodiment,

FIG. 15 shows the fixing shank of a saw blade and the transition region to the blade body in a further variant embodiment.

In the figures, identical components have been provided with identical reference signs.

The following figures each relate to a saw blade for a power tool having an oscillating, reciprocating working movement in translation. The power tool is in particular a portable power tool, preferably a jigsaw or reciprocating saw.

The saw blade 1 according to FIG. 1 comprises a blade body 2 and a fixing shank 3 via which the saw blade is connected to a receiving device of the power tool. The blade body 2 and the fixing shank 3 are configured in one piece. A longitudinal edge of the blade body 2 forms a cutting edge 4 having cutting teeth which extend between the fixing shank 3 and the front tip of the blade body 2. The cutting edge 4 is configured in a rectilinear manner, but the cutting edge 4 may if appropriate also be embodied so as to be slightly curved in a convex manner.

The saw blade 1 has been provided with a rectilinear impression 5 which extends in the longitudinal direction of the saw blade 1 and along the entire axial length of the saw blade, that is to say over both the fixing shank 3 and the blade body 2. The impression 5 is configured in a linear manner and has an only small width. The impression 5 is preferably produced by stamping, but may if appropriate also be produced by rolling and results in strain hardening of the saw blade 1, with the result that the tension properties and vibration transmission properties change. When the impression 5 is produced, no material is removed from the saw blade 1.

FIG. 2 illustrates a variant embodiment of the saw blade 1, in which a plurality of strip-form impressions 5 have been introduced into the blade body 2, said impressions 5 extending into the transition region to the fixing shank 3. A first impression 5 a extends diagonally between the tip of the blade body 2 and the opposite transition region to the fixing shank 3. Two further rectilinear, strip-form impressions 5 b, 5 c are likewise oriented diagonally and enclose an angle with the first diagonal 5 a, wherein the two impressions 5 b and 5 c each extend only over a subregion. In addition, two smaller impressions 5 d and 5 e have been introduced, said smaller impressions 5 d and 5 e each being arranged between the end side of the impression 5 b and 5 c, respectively, and the continuously configured diagonal 5 a.

In the exemplary embodiment according to FIG. 2, the impressions are configured in a strip-form manner with a defined width which is preferably at most 3 mm.

In the exemplary embodiment according to FIG. 3, the blade body 2 has two parallel impressions 5 a, 5 b that extend in the axial direction, said impressions 5 a, 5 b being configured in a rectilinear and strip-form manner and each being at a small distance from the cutting edge 4 and from the opposite lateral edge, respectively, of the blade body. Located in the region of their end edges are impressions 5 c and 5 d that extend in the transverse direction, wherein the first impression 5 c arranged in the transverse direction is arranged in the transition region between the blade body 2 and the fixing shank 3 and the opposite impression 5 d extending in the transverse direction is arranged next to the tip of the blade body 2.

In the exemplary embodiment according to FIG. 4, a total of six strip-form extensions 5 a to 5 f that extend in the transverse direction and are configured in a rectilinear manner have been introduced into the blade body 2 and are each located at a distance from the cutting edge 4 and from the opposite lateral edge, respectively, of the blade body 2. The impression 5 f is located in the transition region between the blade body 2 and the fixing shank 3. In addition, between the first impression 5 a that is located next to the tip and extends in the transverse direction and the subsequent, spaced-apart impression 5 b, an impression section 5 g has been introduced, said impression section 5 g extending in the longitudinal direction and approximately centrally in the blade body 2.

In the exemplary embodiment according to FIG. 5, a plurality of obliquely extending impressions 5 a to 5 g have been introduced into the blade body of the saw blade 1, said impressions 5 a to 5 g each being located at an angle of approximately 45° to the longitudinal axis. The first three impressions 5 a to 5 c located next to the tip extend parallel to one another. The pairs of impressions 5 d and 5 e, and 5 f and 5 g each form a triangular configuration.

In the exemplary embodiment according to FIG. 6, a total of four strip-form impressions 5 a to 5 d that are each configured in a rectilinear manner have been introduced into the blade body 2 of the saw blade 1, said impressions 5 a to 5 d extending in the longitudinal direction and being located in an asymmetrical manner in the lateral surface of the blade body. The impressions 5 a to 5 d are arranged next to the lateral edge which is located opposite the cutting edge 4; the distance from the lateral edge is smaller than from the cutting edge 4. It can also be seen that all of the extensions 5 a to 5 d have the same length A and that the distance B between successive impressions located in a single line is the same size in each case.

In the exemplary embodiment according to FIG. 7, two impressions 5 a, 5 b have been introduced into the blade body 2, said impressions 5 a, 5 b being arranged, in a similar manner to the exemplary embodiment according to FIG. 6, in each case in a rectilinear and eccentric manner and being arranged next to the lateral edge opposite the cutting edge 4. The two rectilinear impressions 5 a, 5 b are located in the rear part, facing the fixing shank 3, of the blade body 2.

In the exemplary embodiment according to FIG. 8, a plurality of differently configured impressions 5 a, 5 b, 5 c and 5 d have been introduced into the saw blade 1. The impressions 5 a are configured in a strip-form manner and in a manner extending in the longitudinal direction and are located next to the tip of the saw blade 1. The subsequent impressions 5 b are likewise configured in a strip-form manner and in a manner extending in the longitudinal direction; in contrast to the two impressions 5 a, in this case three impressions 5 b are provided. Thereafter, there is an impression 5 c in the form of a planar rectangle. Subsequently, an impression in the form of a cross has been introduced into the blade body 2 next to the fixing shank 3.

FIG. 9 illustrates a further variant embodiment of a saw blade 1, into the blade body 2 of which various impressions 5 a to 5 f have been introduced. Two impressions 5 a, 5 b extend diagonally between the corners 6, 7, 8 and 9 of the at least approximately rectangular blade body 2. The diagonally extending impressions 5 a and 5 b can intersect, wherein optionally at least one of the impressions has an interruption in order to avoid impressions located one on top of the other.

Furthermore, two impressions 5 e and 5 f have been introduced into the blade body 2, said impressions 5 e and 5 f extending next to the cutting edge or to the lateral edge opposite the cutting edge, that is to say in the longitudinal direction of the saw blade. The impressions 5 e and 5 f extending in the longitudinal direction have a shorter length than the blade body 2, but the longitudinal axes of the impressions 5 e and 5 f intersect the corners 6 and 7, and 8 and 9, respectively.

In each case two corners 7 and 8, and 6 and 9, respectively, in the regions located at the rear and at the front, respectively, of the blade body 2 are connected by impressions 5 c and 5 d, respectively, which extend in the transverse direction, that is to say transversely to the longitudinal axis of the saw blade. The impressions 5 c and 5 d may connect the respective corners directly together; however, embodiments in which the impressions are configured in a shorter manner in the transverse direction, such that the longitudinal axes of the impressions lead through the corners, are also possible.

Overall, the impressions form a frame-like construction which significantly improves the strength of the blade body 2. In principle, it is sufficient to provide for example only two diagonals 5 a and 5 b between the corners 6 and 8, and 7 and 9, respectively, in order to achieve strain hardening of the blade body in the manner of a frame. As an alternative, impressions 5 c, 5 d, 5 e and 5 f that extend only in the longitudinal direction or in the transverse direction and extend between the corners are provided. In each case, it is possible for the impressions to directly connect the corners or each to be located at a distance from the closest corner. Furthermore, a combination of diagonally extending impressions and impressions extending in the longitudinal direction or transverse direction, as is illustrated in FIG. 9, is suitable.

FIG. 10 illustrates a further exemplary embodiment in which cutouts 10 a to 10 d have been additionally introduced into the blade body 2 of the saw blade 1, with the result that the mass and the mass moment of inertia of the saw blade are reduced. At the same time, in order to improve the rigidity and strength, impressions 5 a to 5 e have been introduced, said impressions 5 a to 5 e corresponding to those according to FIG. 2 in the exemplary embodiment. The cutouts 10 a to 10 d are each delimited by at least one impression, optionally by two different impressions. Furthermore, it is also possible for one or more cutouts to be delimited all around by impressions.

FIG. 11 shows a section through the blade body according to FIG. 10 in the region of the cutouts 10 c, 10 d. It can be seen that the impression 5 a has been introduced into the blade body 2 by way of stamping, such that on one lateral surface of the blade body 2 a depression is produced and on the opposite lateral surface of the blade body an elevation is produced. The depression or elevation may have been indented into or protrude from the respective lateral surface by for example 0.1 mm or more.

In the exemplary embodiment according to FIG. 12, a total of three impressions 5 a, 5 b, 5 c, which are distributed in the transverse direction, have been introduced in the transition region between the blade body 2 and the fixing shank 3. The impressions 5 a to 5 c are each configured in a linear manner and form the periphery of a geometric pattern which is approximately rectangular. The impressions 5 a and 5 c are each located next to the lateral edge or cutting edge 4, and the impression 5 b is located centrally between the outer impressions 5 a and 5 c.

The exemplary embodiment according to FIG. 13 corresponds substantially to the exemplary embodiment according to FIG. 12, but with the difference that the upper impression 5 a located opposite the cutting edge 4 extends as far as the upper lateral edge.

In the exemplary embodiment according to FIG. 14, a plurality of impressions 5 a to 5 e have likewise been introduced into the blade body 2 in the immediate vicinity of the fixing shank 3. In a similar manner to the exemplary embodiments according to FIGS. 12 and 13, on account of tension displacement, a potential breaking line out of the peripheral region of clamping jaws which engage around the fixing shank 3 in the mounted state is displaced from the fixing shank 3 into the blade body 2, which has greater strength. As a result of the introduction of the impressions, the strength in the transition section, subjected to high loading, in the blade body 2 is further increased. According to FIG. 14, the impressions 5 a to 5 e are embodied in the form of a cross, wherein the impressions do not intersect.

In the exemplary embodiment according to FIG. 15, the impression 5, which has likewise been introduced into the blade body 2 in the immediate vicinity of the fixing shank 3, is configured in a planar manner and has an approximately rectangular shape having a rounded narrow side. 

1. A saw blade for a power tool, comprising: a blade body that includes a cutting edge with cutting teeth; a fixing shank formed as one piece with the blade body and configured to fix to a power tool; and at least one impression located in at least one of: the blade body; and the fixing shank.
 2. The saw blade as claimed in claim 1, wherein the at least one impression is: a linear or strip-form impression; a rectilinear impression; or a curved impression.
 3. (canceled)
 4. (canceled)
 5. The saw blade as claimed in claim 2, wherein the at least one impression forms a geometrical pattern having a closed periphery.
 6. The saw blade as claimed in claim 2, wherein the at least one impression extends at least sectionally in a longitudinal direction or substantially parallel to the cutting edge.
 7. The saw blade as claimed in claim 2, wherein the at least one impression extends at an angle to a longitudinal direction or to the cutting edge.
 8. The saw blade as claimed in claim 2, wherein the at least one impression includes at least two impressions that each connect a respective two corners of the blade body.
 9. The saw blade as claimed in claim 8, wherein: each of the at least two impressions extend diagonally; and each of the respective two corners are located diagonally from each other.
 10. The saw blade as claimed in claim 8, wherein: the at least two impressions that connect the respective two corners of the blade body extend in at least one of: a longitudinal direction; and a transverse direction.
 11. The saw blade as claimed in claim 1, wherein the blade body includes at least one cutout which is delimited by the at least one impression.
 12. The saw blade as claimed in claim 1, wherein the at least one impression is located at a distance from a lateral edge of the saw blade.
 13. The saw blade as claimed in claim 1, wherein the at least one impression extends to a lateral edge of the saw blade.
 14. The saw blade as claimed in claim 1, wherein the at least one impression is formed by stamping.
 15. The saw blade as claimed in claim 1, wherein the at least one impression is formed by rolling.
 16. The saw blade as claimed in claim 1, wherein the at least one impression is located in the blade body next to the fixing shank.
 17. The saw blade as claimed in claim 16, wherein the at least one impression has a substantially cross-like shape.
 18. (canceled)
 19. The saw blade as claimed in claim 1, wherein a depth of the at least one impression is at most one third of a thickness of the saw blade.
 20. The saw blade as claimed in claim 1, wherein a width of the at least one impression is at most one third of a height of the saw blade.
 21. The saw blade as claimed in claim 1, wherein the saw blade has a local chemical finishing.
 22. The saw blade as claimed in claim 1, wherein the saw blade has a local thermal finishing treatment.
 23. A power tool, comprising: a saw blade that includes: a blade body having a cutting edge with cutting teeth; a fixing shank formed as one piece with the blade body and fixed to the power tool; and at least one impression formed into at least one of: the blade body; and the fixing shank. 